Aparna Pandey | Biochemistry Award | Best Researcher Award

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Ms. Aparna Pandey | Biochemistry Award | Best Researcher Award

Ph.D. student (CSIR-UGC SRF), UNIVERSITY OF ALLAHABAD, India

Prof. Dr. Weidong Jiao (b. 1970, Wafangdian, China) is a distinguished mechanical engineer specializing in smart testing, signal processing, mechanical dynamics, and fault diagnosis. He earned his B.E. and M.E. from Gansu University of Technology and a Ph.D. in Mechanical Engineering from Zhejiang University (2004). He served at Jiaxing University (2004-2009) and has been a Professor at Zhejiang Normal University since 2013. With 100+ publications and 20 patents, he is an influential researcher and Editor of the Journal of Vibration, Measurement & Diagnosis. His work advances mechanical equipment reliability and diagnostics. ⚙️📡📖

 

Publication Profile

Scopus

Academic Background 🎓

Prof. Dr. Weidong Jiao holds a strong academic foundation in mechanical and safety engineering. He obtained his B.E. and M.E. degrees from Gansu University of Technology and later earned his Ph.D. in Mechanical Engineering from Zhejiang University in 2004. His educational background aligns well with high-impact research in engineering.

Professional Experience 👨‍🏫

Prof. Jiao has held faculty positions at Jiaxing University and Zhejiang Normal University. Since 2013, he has served as a Professor at Zhejiang Normal University’s School of Engineering, showcasing his long-term commitment to research and academia.

Research Focus 🔬⚙️

Prof. Dr. Weidong Jiao specializes in mechanical fault diagnosis, signal processing, and intelligent condition monitoring. His work includes bearing fault detection 🛠️, rotor fault diagnosis 🚀, and high-speed train instability analysis 🚆 using deep learning 🤖, wavelet transforms 📊, and graph neural networks. Additionally, he explores brain functional networks 🧠, mental fatigue detection 💤, and EEG-based fatigue analysis for human performance monitoring. His research spans mechanical engineering, artificial intelligence, and neuroscience, contributing to smart diagnostics and industrial safety. As an editor and innovator, he advances predictive maintenance and

Publication Top Notes

  • “Novel Imbalanced Multi-Class Fault Diagnosis Method Using Transfer Learning and Oversampling Strategies-Based Multi-Layer Support Vector Machines (ML-SVMs)” (2024)

  • “Advances and Challenges in the Hunting Instability Diagnosis of High-Speed Trains” (2024)

  • “Efficient Fault Detection of Rotor Minor Inter-Turn Short Circuit in Induction Machines Using Wavelet Transform and Empirical Mode Decomposition” (2023)

  • “Driving Fatigue Detection with Three Non-Hair-Bearing EEG Channels and Modified Transformer Model” (2022)

    “Reorganization of Brain Functional Network during Task Switching before and after Mental Fatigue” (2022)

  • “Multi-Scale Sample Entropy-Based Energy Moment Features Applied to Fault Classification” (2021)

  • “A Novel Rolling Bearing Defect Detection Method Based on Bispectrum Analysis and Cloud Model-Improved EEMD” (2020)

  • “The Maximum Eigenvalue of the Brain Functional Network Adjacency Matrix: Meaning and Application in Mental Fatigue Evaluation” (2020)

  • “Effects of Mental Fatigue on Small-World Brain Functional Network Organization” (2019)

  • “A New Method for Automatically Modelling Brain Functional Networks” (2018)

Conclusion 🏆

Prof. Dr. Weidong Jiao is highly suitable for the Best Researcher Award due to his strong academic background, extensive research contributions, numerous publications, patents, and leadership roles in mechanical engineering. His work in smart testing, fault diagnosis, and mechanical dynamics significantly impacts industry and academia, making him a deserving candidate for this recognition.

 

Bagher Seyedalipour | Biochemistry Award | Best Researcher Award

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Assoc. Prof. Dr. Bagher Seyedalipour | Biochemistry Award | Best Researcher Award

Biochemistry, University of Mazandaran, Iran

 

Assoc. Prof. Dr. Bagher Seyedalipour is a distinguished biochemist at the University of Mazandaran, specializing in protein engineering and proteomics. With a Ph.D. from Tehran University, he teaches and conducts advanced research on protein structures and gene manipulation techniques, especially using recombinant DNA. His laboratory focuses on creating therapeutic proteins, like luciferase and superoxide dismutase, exploring their functions and effects through site-directed mutagenesis. Dr. Seyedalipour’s work advances understanding of pathogenic mutations, contributing significantly to molecular biology and therapeutic biochemistry. 🔬🧬

 

Publication Profile

Scopus

Orcid

Academic Background

Dr. Bagher Seyedalipour is an accomplished biochemist with a profound dedication to academic research and teaching. He has developed an extensive foundation in the field of biochemistry through his rigorous education and current academic pursuits at the University of Mazandaran.

Education and Qualifications

Dr. Seyedalipour’s academic journey began with a Bachelor of Science in Biology from Shahid Beheshti University, Tehran. He furthered his expertise with a Master’s degree in Biochemistry from Tarbiat Modares University, followed by a Ph.D. in Biochemistry from the Institute of Biochemistry and Biophysics at Tehran University. His extensive training equips him with in-depth knowledge across biochemical sciences, particularly in protein engineering and molecular biology.

Teaching and Research Interests

Dr. Seyedalipour teaches courses on Biochemistry, Structure, Metabolism, and Advanced Molecular Biology for undergraduate and graduate students. His laboratory is primarily focused on Enzymology, Protein Engineering, and Proteomics, aiming to characterize and manipulate genes using recombinant DNA technology. His research highlights include the expression and production of therapeutic proteins, such as luciferase, superoxide dismutase, and uricase, where he applies site-directed mutagenesis for mutation analysis and to explore mutation-pathogenicity relationships.

Conclusion

Dr. Bagher Seyedalipour is a strong candidate for the Research for Best Researcher Award. His work in biochemistry, particularly his focus on protein engineering and pathogenic mutation analysis, stands out in its potential impact on therapeutic advancements and our understanding of molecular biology.

Publication Top Notes  

  • 🧬 “Mutation/metal deficiency in the electrostatic loop enhanced aggregation process in apo/holo SOD1 variants: implications for ALS diseases,” Ashkaran, F., Seyedalipour, B., et al. – BMC Chemistry (2024)
  • 🧬 “Implications of ALS-Associated Mutations on Biochemical and Biophysical Features of hSOD1 and Aggregation Formation,” Mohammadi, S., Seyedalipour, B., et al. – Biochemical Genetics (2024), 1 citation
  • 🧬 “GSTP1-A313G genetic polymorphism and the risk of preeclampsia in pregnant women: A study in the northern population of Iran,” Jalalian, E.J., Seyedalipour, B., et al. – Pregnancy Hypertension (2024)s
  • 🧬 “1,4-Diol Hq (TBHQ) vs 1,4-dithiol (TBDT); simulation of safe antioxidant with a lower carcinogenic activity,” Mosavi, S.Z., Seyedalipour, B., et al. – Science Progress (2024)
  • 🧬 “Exploring the anti-amyloid potential of salvianolic acid A against the ALS-associated mutant SOD1,” Waheed, Z.A., Seyedalipour, B., et al. – Molecular Simulation (2024), 1 citation
  • 🧬 “Catharanthine, an anticancer vinca alkaloid: in silico and in vitro analysis of the autophagic system,” Gholami, F., Seyedalipour, B., et al. – Naunyn-Schmiedeberg’s Archives of Pharmacology (2024)
  • 🧬 “Polyphenolic flavonoid compounds as inhibitors of aggregation in FALS-associated D101G SOD1 mutant,” Qassim, H.M., Seyedalipour, B., et al. – Computational Biology and Chemistry (2023), 4 citations
  • 🧬 “Role of charged residues of the “electrostatic loop” of hSOD1 in aggregation under amyloidogenic conditions,” Mavadat, E., Seyedalipour, B., et al. – International Journal of Biological Macromolecules (2023), 6 citations
  • 🧬 “A double point mutation of SOD1 targeting net charge promotes aggregation,” Mavadat, E., Seyedalipour, B., et al. – Biochimica et Biophysica Acta (2023), 5 citations
  • 🧬 “Sensitive determination of urea in luciferin chemiluminescence system,” Nemati, A., Seyedalipour, B., et al. – Chemical Papers (2023), 1 citation

 

 

Hanna Danylovych | Biochemistry Award | Best Researcher Award

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Dr. Hanna Danylovych | Biochemistry Award | Best Researcher Award

Dr. Hanna Danylovych, Palladin Institute of Biochemistry of National academy Sciences of Ukraine, Ukraine

Dr. Hanna V. Danylovych 🇺🇦, born on May 20, 1974, in Kyiv, is a distinguished Ukrainian biochemist. She earned her Master’s in Biology from the National University of Kyiv-Mohyla Academy in 1999 and has since been a Senior Scientist at the O.V. Palladin Institute of Biochemistry, focusing on muscle biochemistry. Dr. Danylovych completed her Ph.D. in 2006 and her Doctorate in 2022, specializing in nitric oxide biosynthesis in smooth muscle mitochondria 🧬. Her research, published in over 70 articles, explores calcium transport and nitric oxide’s regulatory roles. Awarded the Palladin Award in 2023, she’s recognized for her contributions to biochemistry 🏆.

 

Publication profile

Google Scholar

Education 🎓

Hanna V. Danylovych, born on May 20, 1974, in Kyiv, graduated with a Master’s in Biology from the National University of Kyiv-Mohyla Academy in 1999.

Achievements and Awards 🏆

Dr. Danylovych received the Palladin Award in 2023 for her exceptional contributions to biochemistry and was recognized for her publication in the BioTechnologia Journal in 2018.

 

Research Focus

Dr. Hanna V. Danylovych’s research primarily focuses on biochemistry, specifically the biochemical mechanisms in smooth muscle cells 🧬. Her studies explore how nitric oxide and calcium ions influence the bioenergetics and homeostasis of these cells. She investigates nitric oxide biosynthesis in mitochondria and its regulatory effects on calcium transport and mitochondrial function 🧫. Her work also includes examining the impact of calix[4]arenes as potential modulators of mitochondrial calcium transport systems. Dr. Danylovych’s research has profound implications for understanding and regulating the contractile functions of smooth muscles and cellular energy dynamics ⚡.

Publication Top Notes